CN208969330U - A kind of Air Fungi spore micro-image remote collecting device - Google Patents

Abstract

A kind of Air Fungi spore micro-image remote collecting device, glass slide slice getting device is set in cabinet, glass slide slice getting device provides glass slide to objective table using stepper motor, spore adsorbent is uniformly applied to the pickup area of the glass slide on objective table using step motor control gluing head and scraper blade by greasing device, spore acquisition air-duct apparatus includes the bellows without bottom plate, the acquisition air inlet of air duct of bellows is connected by pipeline with the air inlet on cabinet, the acquisition duct outlet of bellows is connected by pipeline with forced draft fans, bellows bottom is enabled to be adjacent to the glass slide on objective table by step motor control, microscopic imaging device carries out Image Acquisition to the micro-image of glass slide miospore.Glass slide is automatically replaceable in the utility model, it is automatically performed the uniform smearing of spore adsorbent, air spore settable different pull-in times when capturing, amplify different multiples according to demand and acquire micro-image in real time, and can realize the long range radio transmissions of image information and continue remotely to monitor.

Description

A kind of Air Fungi spore micro-image remote collecting device

Technical field

The utility model belongs to reading intelligent agriculture and bioscience technology field, in particular to a kind of Air Fungi spore is aobvious Micro- image remote acquisition device.

Background technique

Air Fungi spore micro-image remote collecting device is a kind of for fungal diseases of plants monitoring and forecast Instrument is mainly used for remote collection with air borne, the plant pathogenic fungi spore micro-image of infection, and then it is raw to measure plant The fungal spore quantity in environment is produced, basic data can be provided for the prediction of fungal diseases of plants, is to formulate early correctly Prevention and control strategy and take an important evidence of control measure.

With the update of spore seizing device and universal, aerial gas passes plant pathogenic fungi spore and spore seizing device is mostly used to take Sample and monitoring.But during field field captures fungal spore, the dispersion of spore seizing device measuring point, unmanned value in many cases It keeps, quantity is more and geographical location is remote.Traditional spore trap method, there are heavy workload, low efficiency, it is time-consuming and laborious, need people The deficiencies of work timing exchanges slide or pull-in range for can not carry out automatic, real-time, large scale to the concentration levels of farmland air spore Fast slowdown monitoring causes measurement result that can not reflect the real-time and dynamic changes of large scale farmland fungal spore.Plant protection expert Earnestly look forward to there is a kind of solution that can be captured automatically and capture result with long-range real-time statistics.

Application No. is 201010178307.2, the applying date is on May 21st, 2010 for the China that inventor sieve Deping is submitted, The invention of entitled " integral intelligent spore trapping device " provides a kind of device for capturing automatically and adding spore video capture, but The capture device uses plastic tape for spore trap carrier, since spore volume only has micron size, optical microphotograph is needed to amplify 100 times or more could be visual, the results showed, plastic tape is easily-deformable, leads to surface irregularity, due to light when microphotograph Amplification factor is big, the depth of field becomes smaller, and easily occurs not focusing when to the automatic micro-imaging of plastic tape different zones, leads to image district Domain fogs.

Summary of the invention

In order to overcome the disadvantages of the above prior art, the purpose of this utility model is to provide a kind of Air Fungi spores Micro-image remote collecting device takes load glass, it can be achieved that being automatically performed using on-deformable glass slide as spore trap carrier Piece-fat liquoring-the functions such as air spore acquisition-spore micro image collection and remote transmission-recycling glass slide, to simplify dress The complexity set improves the clarity of image.

To achieve the goals above, the technical solution adopted in the utility model is:

A kind of Air Fungi spore micro-image remote collecting device, including cabinet 6, which is characterized in that in cabinet 6 Glass slide slice getting device 1, objective table 2, greasing device 3, spore acquisition air-duct apparatus 4, microscopic imaging device 5 and solar energy are set Power supply module, wherein the glass slide slice getting device 1 provides glass slide 17, the fat liquoring dress to objective table 2 using stepper motor Set 3 glass slides being uniformly applied to spore adsorbent using step motor control gluing head 35 and scraper blade 37 on objective table 2 17 pickup area, the spore acquisition air-duct apparatus 4 include the bellows 42 without bottom plate, the acquisition air inlet of air duct of bellows 42 40 are connected by pipeline with the air inlet 9 on cabinet 6, and the acquisition duct outlet 41 of bellows 42 passes through pipeline and forced draft fans 10 It is connected, enables to 42 bottom of bellows to be adjacent to the glass slide 17 on objective table 2 by the control of stepper motor 10, it is described micro- Imaging device 5 is set to the top of objective table 2, carries out Image Acquisition to the micro-image of 17 miospore of glass slide thereon.

6 lower part of cabinet is configured bolt screw hole 7 and universal wheel 8, and the air inlet 9 is provided with gauze.

The glass slide slice getting device 1 includes the valut 18 for placing glass slide 17, and the bottom of valut 18 is hanging, by step The push jack plate 19 controlled into motor 1 acts on the overhead positions, and 17 level of glass slide fallen from valut 18 is pushed out to Slide plate plate 22, the slide plate plate 22 is controlled by stepper motor 2 21 and is rotated, so that glass slide 17 slides into the slide slot 26 of objective table 2 In.

The objective table 2 is installed in lead screw guide rails 1, drives lead screw guide rails 1 to make by stepper motor 3 16 Objective table 2 moves in X direction, stepper motor 4 23 is equipped on the objective table 2,4 23 driving objective table 2 of stepper motor is along Y Direction is mobile, and spacer pin 25 and slide limit plate 27 are equipped on the objective table 2, and spacer pin 25 is controlled by stepper motor 5 24 System, when smearing spore adsorbent, stepper motor 5 24 pushes spacer pin 25 to block glass slide 17, and slide limit plate 27 is by stepping Motor 6 28 controls, and pushes glass slide 17 to fall into it in recycling box after acquiring image.

The greasing device 3 includes the lead screw guide rails 3 33 and lead screw guide rails of lateral lead screw guide rails 2 32 and two longitudinal directions 4 34, gluing head 35 is arranged in lead screw guide rails 3 33, and the rear of gluing head 35 is provided with glue box 36, and lead screw guide rails 3 33 are installed In lead screw guide rails 2 32, scraper blade 37 is arranged in lead screw guide rails 4 34, and stepper motor 7 29 controls gluing head 35 along lead screw Guide rail 3 33 moves up and down, and stepper motor 8 31 controls scraper blade 37 and moves up and down along lead screw guide rails 4 34, stepper motor 9 30 Lead screw guide rails 3 33 are controlled along 2 32 horizontal movement of lead screw guide rails.

The spore acquisition air-duct apparatus 4 uses right angle Duct design, makes in glass slide 17 and bellows 42 containing spore Air-flow comes into full contact with so that it sticks more spores, when the bottom of bellows 42 and glass slide 17 are adjacent to, can make outer gas stream with Box house isolation prevents outside air pollution interior arrangement, and controls air duct interior air-flow size by forced draft fans 10.

The bellows 42 are mounted in lead screw guide rails 5 39, are driven by stepper motor 10 along about 5 39 lead screw guide rails Movement, the acquisition air inlet of air duct 40 are located at the top of bellows 42, and acquisition duct outlet 41 is located at the side of bellows 42.

The microscopic imaging device 5 includes microscope digital camera 43, lens barrel 44 and object lens 45, the microscope digital Camera 43 is connected by USB data line with built-in industrial control machine, receives the image pick-up signal issued from industrial personal computer at any time, 100~400 multiples can be amplified by lens barrel 44 and object lens 45, capture the micro-image of fungal spore on the glass slide 17.

Microscopic imaging device 5 described in the 2 lower section face of objective table is equipped with microscope light source 12,6 top of cabinet Solar energy electroplax 14, and 14 tilt adjustable section of solar energy electroplax, inside setting battery 13, battery 13 and the sun are set Energy battery plate 14, which is connected, is powered using acquiring clean solar energy as whole device.

The microscope light source 12 is connected with control module, and control module passes through the PWM Signal Regulation of different duty Electric current is exported, realization quantitatively adjusts the stabilization of 12 luminous intensity of microscope light source.

The utility model controls each motor using built-in industrial control machine, and industrial personal computer is packaged in the cabinet 6, passes through USB interface is connected with wireless communication module, realizes the tele-video transmission of acquisition device, while receiving the control from server end Command signal processed, and according to the signal of server end, starting or each motion module of emergency stop.

The utility model additionally provides the acquisition side using the Air Fungi spore micro-image remote collecting device Method is controlled using built-in industrial control machine, which comprises the steps of:

Step S1: industrial personal computer powers on, and software starts automatically, establishes the link with server end；

Step S2: System self-test successively sends instruction of shaking hands to drive module, receives feedback command, sends out to I/O module Instruction is sent, feedback command is received, microscope digital camera 43 is read and parameter is set, whether detection camera is working properly；

Step S3: self-test is completed, micro- to server end sending device state: drive module state, I/O module status 43 parameter of mirror digital camera；

Step S4: reset each motion module by limit switch, the acquisition instructions at waiting for server end；

Step S5: receiving acquisition instructions, and glass slide slice getting device 1 is run, and takes out glass slide 17；

Step S6: objective table 2 is moved to the left, and glass slide 17, which is transported at greasing device 3, uniformly smears spore adsorbent；

Step S7: objective table 2 is moved to the left, and 17 level of glass slide is transported at spore acquisition 4 position of air-duct apparatus, spore The son acquisition operation of air-duct apparatus 4 is adjacent to 42 bottom of bellows with glass slide 17, while opening forced draft fans 10；

Step S8: capturing fungal spore time range is 2~24 hours, can set pull-in time by actual demand；

Step S9: after capture, forced draft fans 10 are closed, objective table 2 is moved to the left, and 17 level of glass slide is transported to At micro-imaging position 5, microscope light source 12 is opened；

Step S10: control 2 plane motion of objective table, to acquire the spore micrograph on glass slide 17 on different location point Picture, while starting microscope digital camera 43 and acquiring micro-image；

Step S11: industrial personal computer stores image data in a hard disk, while carrying out image remote transmission by wireless network To server end；

Step S12: closing microscope light source 12, and glass slide 17 is transported to recovery position by the control movement of stepper motor 6 28 It abandons, terminates acquisition；

Circulation step S2~S12.

Compared with prior art, the utility model has the following beneficial effects:

A kind of Air Fungi spore micro-image remote collecting device of the utility model, glass slide is automatically replaceable, empty Miospore settable different pull-in times when capturing, can amplify 100~400 times to fungal spore and carry out acquisition micrograph in real time Picture, and equip integrated wireless communication module, it can be achieved that image information long range radio transmissions.By solar powered, thus real Now fungal spore is continued to monitor.Timely and accurately Air Fungi spore is captured and monitored, can be plant epiphyte The prediction of disease provides basic data, be for formulate correct prevention and control strategy early and take one of control measure it is important Foundation.

Detailed description of the invention

Fig. 1 is each modular structure schematic diagram of utility model device.

Fig. 2 is utility model device mechanical body structural schematic diagram.

Fig. 3 is the utility model glass slide slice getting device schematic diagram.

Fig. 4 is the utility model objective table schematic diagram.

Fig. 5 is the utility model greasing device schematic diagram.

Fig. 6 is that the utility model acquires air-duct apparatus schematic diagram.

Fig. 7 is the utility model microscopic imaging device schematic diagram.

Fig. 8 is the utility model remote collecting device software workflow figure.

Specific embodiment

It is with reference to the accompanying drawing and detailed as embodiment to acquire puccinia striiformis uredospore, spore adsorbent selection vaseline Describe bright the embodiments of the present invention in detail.

As shown in Figure 1, being a kind of each module of Air Fungi spore micro-image remote collecting device of the utility model Structural schematic diagram, using built-in industrial control machine as control core, the control that module receives server end by wireless communication refers to device It enables, wireless communication module and camera are connect with built-in industrial control machine by USB line, and drive module and I/O module pass through communication 485 buses are connect with built-in industrial control machine realizes signal transmission, and drive module adjusts driving chip output difference by pwm signal Pulse number, to realize the movement of motor module, limit switch connect control motor start and stop, I/O module with drive module It is connected with forced draft fans and control module, control module passes through output difference using the PT4115 chip of output current adjustment The PWM Signal Regulation of duty ratio exports electric current, to realize that the stabilization of microscope light source luminous intensity is quantitatively adjusted.Solar energy Power supply module is each module for power supply of device.

Fig. 2 is utility model device mechanical body structural schematic diagram；Fig. 3 is the glass slide slice getting device of the utility model Schematic diagram；Fig. 4 is the utility model objective table schematic diagram；Fig. 5 is the utility model greasing device schematic diagram；Fig. 6 is that this is practical Novel acquisition air-duct apparatus schematic diagram；Fig. 7 is the utility model microscopic imaging device schematic diagram.

As shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and Fig. 7, Air Fungi spore micro-image provided by the utility model Remote collecting device includes glass slide slice getting device 1, objective table 2, greasing device 3, spore acquisition air-duct apparatus 4 and micro-imaging Device 5 and solar powered module；Wherein, the remote collecting device is mounted in cabinet 6, and 6 bottom of cabinet is provided with ground bolt Screw hole 7 and universal wheel 8；The glass slide slice getting device 1 includes the valut 18 for placing glass slide 17, and the bottom of valut 18 is outstanding Sky, when device 1 is run, stepper motor 1 drives push jack plate 19 to travel forward first and acts on the overhead positions, pushes Glass slide 17 in valut 18 is moved on slide plate plate 22, and stepper motor 2 21 drives slide plate plate 22 to be tilted a certain angle at this time In the slide slot 26 for sliding into glass slide 17 on objective table 2；The greasing device 3 includes lateral lead screw guide rails 2 32 and two The lead screw guide rails 3 33 and lead screw guide rails 4 34 of item longitudinal direction, gluing head 35 is arranged in lead screw guide rails 3 33, after gluing head 35 Side is provided with glue box 36, and lead screw guide rails 3 33 are mounted in lead screw guide rails 2 32, and scraper blade 37 is arranged in lead screw guide rails 4 34 On, stepping stepper motor 7 29 controls gluing head 35 and moves up and down along lead screw guide rails 3 33, and stepping stepper motor 9 30 controls silk For thick stick guide rail 3 33 along 2 32 horizontal movement of lead screw guide rails, stepping stepper motor 8 31 controls scraper blade 37 in lead screw guide rails 4 34 Lower movement, for vaseline to be uniformly applied to 17 pickup area of glass slide；The spore acquisition air-duct apparatus 4 includes the bottom of without The acquisition air inlet of air duct 40 of the bellows 42 of plate, bellows 42 is connected by hose with the air inlet 9 at 6 top of cabinet, bellows 42 Acquisition duct outlet 41 is connected by hose with forced draft fans 10, and when starting to acquire spore, the starting of stepper motor 10 makes The rotation of lead screw guide rails 5 39 drives bellows 42 to decline, and is adjacent to 42 bottom of bellows with glass slide 17 and stops, at this time forced draft fans 10 start, and negative pressure is formed in air duct, and the air for being mingled with spore is sucked from air inlet 9, are discharged from air outlet 11, in air Spore collides with glass slide 17 and sticks thereon as air-flow moves in bellows 42；The microscopic imaging device 5 is arranged In the top of objective table 2, including microscope digital camera 43, lens barrel 44 and object lens 45, the microscope digital camera 43 It is connected by USB data line with built-in industrial control machine, the image pick-up signal issued from industrial personal computer is received at any time, according to summer spore The size of son amplifies 200 times by lens barrel 44 and object lens 45, captures the micro- of in 2 upper slide of objective table uredospore Image.The industrial personal computer and circuit module are loaded into cabinet 6.The acquisition device provides power supply using the battery 13 of 12V, The battery 13 is connected with solar energy electroplax 14 is powered using acquiring clean solar energy as whole device.

The aerial uredospore acquisition-spore micro image collection-recycling of glass slide-fat liquoring-is taken to carry in order to be automatically performed The operating functions such as slide, be embodied as follows: the objective table 2 is installed in lead screw guide rails 1, passes through stepper motor 3 16 Driving lead screw guide rails 1 move objective table 2 in X direction, are automatically performed and take the aerial uredospore acquisition of glass slide-fat liquoring- Etc. functions；Meanwhile it being also equipped with stepper motor 4 23 on the objective table 2, objective table 2 can be made to move along Y-direction.Stepper motor 16 and 23 receive the plane motion that the pulse signal driving objective table 2 exported from the industrial personal computer realizes X, Y-direction, with acquisition Spore micro-image on glass slide on different location point.Spacer pin 25 and slide limit plate are installed on the objective table 2 27, spacer pin 25 is controlled by stepper motor 5 24, and when smearing spore adsorbent, stepper motor 5 24 pushes spacer pin 25 to block Glass slide 17, for preventing when smearing vaseline, glass slide, which is gummed first 35 and sticks, to be taken away, and slide limit plate 27 is by stepping electricity Machine 6 28 controls, and pushes glass slide 17 to fall into it in recycling box after acquiring image.

Air Fungi spore micro-image remote collecting device provided by the utility model, the built-in industrial control machine are logical It crosses USB interface to be connected with wireless communication module, realizes the tele-video transmission of acquisition device.The wireless communication module is not only The image signal transmission issued from industrial personal computer is received, also can receive the control command signal from server end, and according to clothes The signal at business device end, starting or each motion module of emergency stop, such as server end discovery are not received by spore picture for a long time, The movement of objective table can be suspended to save electricity.

Air Fungi spore micro-image remote collecting device provided by the utility model, spore acquisition air duct dress It sets 4 and uses right angle Duct design, come into full contact with the air-flow containing spore in glass slide 17 and bellows 42 so that it sticks more Spore.When the bottom of bellows 42 and glass slide 17 are adjacent to, outer gas stream can be made to be isolated with box house, prevent outside air dirty Contaminate interior arrangement.Meanwhile also air duct interior air-flow size can be controlled by forced draft fans 10.

Air Fungi spore micro-image remote collecting device provided by the utility model, the valut 18 is using vertical Storage is stacked, maximum can store glass slide 100, for acquisition device continuously in field field long-time remote collection spore figure As data.

Air Fungi spore micro-image remote collecting device provided by the utility model, the acquisition device need long-term In the more severe field field work of environment, it is contemplated that dust-proof, waterproof and moistureproof requirement is needed, using 304 stainless steels Cabinet 6 is designed to the sealing structure cabinet with door by material, prevents cabinet corrosion from causing cabinet leak damage is internal to set Standby, the air inlet 9 of the top of the box is provided with gauze.The device that long-term field uses is also contemplated that wind force proofing design, so case Body bottom is reserved with ground bolt screw hole, and lower margin is fixed when convenient for needing.

As shown in figure 8, the software work of Air Fungi spore micro-image remote collecting device provided by the utility model It is as follows to make process step:

Step S1: industrial personal computer powers on, and software starts automatically, establishes the link with server end；

Step S2: System self-test successively sends instruction of shaking hands to drive module, receives feedback command, sends out to I/O module Instruction is sent, feedback command is received, microscope digital camera 43 is read and parameter (time for exposure, gain) is set, detect camera It is whether working properly；

Step S3: self-test is completed, micro- to server end sending device state: drive module state, I/O module status 43 parameter of mirror digital camera (time for exposure, gain)；

Step S4: reset each motion module by limit switch, the acquisition instructions at waiting for server end；

Step S5: receiving acquisition instructions, and glass slide slice getting device 1 is run, and takes out glass slide 17；

Step S6: objective table 2 is moved to the left, and glass slide 17 is transported at greasing device 3 and uniformly smears vaseline；

Step S7: objective table 2 is moved to the left, and 17 level of glass slide is transported at spore acquisition air duct position 4, and spore is adopted The collection operation of air-duct apparatus 4 is adjacent to 42 bottom of bellows with glass slide 17, while opening forced draft fans；

Step S8: it captures uredospore and is set as 2 hours；

Step S9: after capture, forced draft fans 10 are closed, objective table 2 is moved to the left, and 17 level of glass slide is transported to At micro-imaging position 5, microscope light source 12 is opened；

Step S10: control 2 plane motion of objective table, it is micro- to acquire uredospore on glass slide 17 on different location point Image, while starting microscope digital camera 43 and acquiring micro-image；

Step S11: industrial personal computer stores image data in a hard disk, while carrying out image remote transmission by wireless network To server end；

Step S12: closing microscope light source 12, and glass slide 17 is transported to recovery position by the control movement of stepper motor 6 28 It abandons, terminates acquisition.Circulation step S2~S12 exchanges glass slide for automatically, applies vaseline, spore trap, micro-imaging and image The functions such as remote transmission.Realization, which is automatically performed, takes glass slide-fat liquoring-air spore acquisition-spore micro image collection and remote Journey transmit-recycles the functions such as glass slide.

Above content is only illustrate to examples for clearly illustrating the present invention described in this specification.The utility model The technical personnel in the technical field can do various modifications or supplement to described specific embodiment or use similar side Formula substitution, the content that illustrates without departing from the utility model or beyond the scope defined by this claim should all Belong to the protection scope of the utility model.

Claims (8)

1. a kind of Air Fungi spore micro-image remote collecting device, including cabinet (6), which is characterized in that in cabinet (6) Middle setting glass slide slice getting device (1), objective table (2), greasing device (3), spore acquisition air-duct apparatus (4), micro-imaging dress Set (5) and solar powered module, wherein the glass slide slice getting device (1) provides load to objective table (2) using stepper motor Slide (17), the greasing device (3) are equal by spore adsorbent using step motor control gluing head (35) and scraper blade (37) The pickup area of the even glass slide (17) being applied on objective table (2), spore acquisition air-duct apparatus (4) includes without bottom plate Bellows (42), the acquisition air inlet of air duct (40) of bellows (42) is connected by pipeline with the air inlet (9) on cabinet (6), wind The acquisition duct outlet (41) of case (42) is connected by pipeline with forced draft fans (10), controls energy by stepper motor ten (38) Enough so that bellows (42) bottom is adjacent to the glass slide (17) on objective table (2), the microscopic imaging device (5) is set to loading The top of platform (2) carries out Image Acquisition to the micro-image of glass slide (17) miospore thereon.

2. Air Fungi spore micro-image remote collecting device according to claim 1, which is characterized in that the cabinet (6) lower part is configured bolt screw hole (7) and universal wheel (8), and the air inlet (9) is provided with gauze.

3. Air Fungi spore micro-image remote collecting device according to claim 1, spore acquisition air duct dress (4) are set using right angle Duct design, come into full contact with the air-flow containing spore in glass slide (17) and bellows (42) so that it is glutinous Attached more spores can be such that outer gas stream is isolated with box house, prevent when the bottom and glass slide (17) of bellows (42) are adjacent to Outside air pollution interior arrangement, and air duct interior air-flow size is controlled by forced draft fans (10).

4. Air Fungi spore micro-image remote collecting device according to claim 1, which is characterized in that the bellows (42) it is mounted in lead screw guide rails five (39), is driven by stepper motor ten (38) and moved up and down along lead screw guide rails five (39), it is described Acquisition air inlet of air duct (40) is located at the top of bellows (42), and acquisition duct outlet (41) is located at the side of bellows (42).

5. Air Fungi spore micro-image remote collecting device according to claim 1, which is characterized in that described micro- Imaging device (5) includes microscope digital camera (43), lens barrel (44) and object lens (45), the microscope digital camera (43) it is connected by USB data line with built-in industrial control machine, receives the image pick-up signal issued from industrial personal computer at any time, pass through Lens barrel (44) and object lens (45) can amplify 100~400 multiples, capture the micro-image of fungal spore on the glass slide (17).

6. Air Fungi spore micro-image remote collecting device according to claim 1, which is characterized in that the loading Microscopic imaging device (5) described in face is equipped with microscope light source (12) below platform (2), and the sun is arranged at the top of the cabinet (6) Energy battery plate (14), and solar energy electroplax (14) tilt adjustable section, inside setting battery (13), battery (13) and the sun Energy battery plate (14), which is connected, is powered using acquiring clean solar energy as whole device.

7. Air Fungi spore micro-image remote collecting device according to claim 6, which is characterized in that described micro- Mirror light source (12) is connected with control module, and control module adjusts output electric current, realization pair by the pwm signal of different duty The stabilization of microscope light source (12) luminous intensity is quantitatively adjusted.

8. Air Fungi spore micro-image remote collecting device according to claim 1, which is characterized in that using insertion Formula industrial personal computer controls each motor, and industrial personal computer is packaged in the cabinet (6), is connected by USB interface with wireless communication module, It realizes the tele-video transmission of acquisition device, while receiving the control command signal from server end, and according to server end Signal, starting or each motion module of emergency stop.